One-dimensional plasmons in ultrathin metallic silicide wires of finite width | Zendy

Eddy P. Rugeramigabo | Zendy; Christoph Tegenkamp | Zendy; H. Pfnür | Zendy; Takeshi Inaoka | Zendy; Tadaaki Nagao | Zendy

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One-dimensional plasmons in ultrathin metallic silicide wires of finite width

Author(s) -

Eddy P. Rugeramigabo,

Christoph Tegenkamp,

H. Pfnür,

Takeshi Inaoka,

Tadaaki Nagao

Publication year - 2010

Publication title -

physical review b

Language(s) - English

Resource type - Journals

eISSN - 1538-4489

pISSN - 1098-0121

DOI - 10.1103/physrevb.81.165407

Subject(s) - brillouin zone , materials science , condensed matter physics , plasmon , vicinal , metal , strips , surface plasmon , character (mathematics) , optoelectronics , physics , composite material , geometry , metallurgy , mathematics , quantum mechanics

The acoustic dispersion of plasmons (PLs) in narrow (4 nm) and ultrathin (one unit cell) metallic DySi2 wires, grown by self-assembly on vicinal Si(100)-[011] 4° turns out to be unidirectional. We observed the lowest intersubband PL as well as the acoustic PL. These PLs are specific for narrow metallic strips of finite width. Our experimental and theoretical analysis suggests that only one of two electron pockets in the surface Brillouin zone makes a substantial contribution to the PLs because the other pocket has a much smaller conductive character due to a strong admixture of electronic states with d character. © 2010 The American Physical Society

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